CN109049458B

CN109049458B - Building composite board compaction isolation forming die

Info

Publication number: CN109049458B
Application number: CN201811106591.5A
Authority: CN
Inventors: 缪心怡
Original assignee: China Railway Construction Group Central South China Construction Co Ltd
Current assignee: China Railway Construction Group Central South China Construction Co Ltd
Priority date: 2018-09-21
Filing date: 2018-09-21
Publication date: 2020-08-28
Anticipated expiration: 2038-09-21
Also published as: CN109049458A

Abstract

The invention relates to a building composite board compaction isolation forming die which comprises a transverse partition plate, a forming underframe, a left vertical plate, a longitudinal vertical plate and a vibration separation device, wherein the top of the right end of the forming underframe is provided with the longitudinal vertical plate; the vibration separation device comprises an isolation plate, an isolation multistage push rod, a sliding connection column, a sliding support column, a vibration mechanism, a separation mechanism, a position push rod and a position connecting plate. The invention can solve the problems that the partition board mold needs manual assembly, the mold is difficult to assemble and disassemble, the partition board mixture needs manual compaction, and the partition board is damaged by disassembling the mold after the partition board is hardened in the production of the existing polyphenyl particle partition board.

Description

Building composite board compaction isolation forming die

Technical Field

The invention relates to the technical field of building composite board processing, in particular to a building composite board compaction and isolation forming die.

Background

The polyphenyl granule partition board is a new building composite board composed of polyphenyl granules, fly ash, cement and additives, the polyphenyl granule partition board has the advantages of installation and construction blocks, low cost, less construction waste and the like, two side surfaces of the polyphenyl granule partition board are respectively provided with an arc-shaped bulge and an arc-shaped groove, the arc-shaped bulge and the arc-shaped groove are matched to increase the installation efficiency of the polyphenyl granule partition board, the polyphenyl granule partition board is generally produced by adopting a mould, the polyphenyl granule partition board mixture is put into the mould after being uniformly stirred and is demoulded after being hardened and shaped with alignment, the formed polyphenyl granule partition board is hoisted to a proper position by utilizing hoisting equipment, the existing problem when the polyphenyl granule partition board is produced by utilizing an assembly mould is as follows, the partition board mould needs manual assembly, the labor and the labor are wasted, and the assembly and the disassembly of the mould are difficult, the mould form removal can cause the damage to the partition plate after the partition plate hardens, causes the partition plate production effect subalternation problem, needs the manual work to carry out the compaction with the partition plate mixture.

Disclosure of Invention

In order to solve the problems, the invention provides a building composite board compaction and isolation forming die which can solve the problems that a partition board die needs to be manually assembled and disassembled when the existing polyphenyl particle partition board is produced, the partition board die is difficult to assemble and disassemble, the partition board mixture needs to be compacted manually, and the partition board is damaged due to die stripping after the partition board is hardened; the vibrating compaction and isolation molding function of the polyphenyl particle partition board mixture can be realized, and the vibrating compaction and isolation molding method has the advantages that the partition board mold does not need to be assembled, the mold automatically adjusts the size, the mold is mechanically compacted and does not damage the partition board after the partition board is hardened.

In order to achieve the purpose, the invention adopts the following technical scheme that the building composite board compaction isolation forming die comprises a transverse partition plate, a forming underframe, a left vertical plate, a longitudinal vertical plate and a vibration separation device, wherein the top of the right end of the forming underframe is provided with the longitudinal vertical plate, the front side and the rear side of the left end of the longitudinal vertical plate are uniformly distributed with the transverse partition plate, the transverse partition plate is matched with the longitudinal vertical plate in a sliding friction mode, the left vertical plate is in friction fit with the left end of the transverse partition plate, the left vertical plate is arranged on the top of the left end of the forming underframe, and the vibration separation device is arranged on the transverse partition plate.

The vibration separation device comprises an isolation plate, an isolation multistage push rod, a sliding connecting column, a sliding support column, a vibration mechanism, a separation mechanism, a position push rod and a position connecting plate, wherein the isolation plate is connected with a transverse partition plate positioned at the front end of the forming underframe in a sliding fit manner; the upper and lower sides of the rear end of the isolation plate are provided with abutting grooves, the front end of the isolation plate is connected with the top of an isolation multistage push rod, the bottom of the isolation multistage push rod is arranged on the front side surface of a transverse partition plate positioned at the front end of a forming underframe, the outer side surface of each transverse partition plate is connected with the top of a position push rod, the bottom of the position push rod is arranged on the top of the outer end of the forming underframe through a position connecting plate, the outer side surface of the upper end of each transverse partition plate is connected with the inner end of a sliding connecting column, the outer end of the sliding connecting column is connected with the upper end of a sliding support column through a sliding fit mode, the lower end of the sliding support column is arranged on the top of the forming underframe, circular grooves are uniformly distributed on the lower end of the transverse partition plate positioned at the rear end of the forming underframe, the left and right sides of each, the upper end of the transverse partition plate positioned at the rear end of the forming underframe is uniformly provided with an isolation groove, each isolation groove on the transverse partition plate is internally provided with a separation mechanism, the positions of the separation mechanisms correspond to the positions of the isolation plates one by one, during specific work, the vibration separation device can vibrate and separate the mixture of the polyphenyl particle partition plate, the contraction motion of the isolation multistage push rods can adjust the positions of the isolation plates, so that the isolation plates can perform isolation motion, the expansion motion of the position push rods can adjust the distance between the transverse partition plates, the invention can process partition plates of different types, the size formed by the transverse partition plate, the forming underframe, the vertical plate and the left vertical plate is the size of the partition plate, after the mixture of the polyphenyl particle partition plate is hardened, the position push rods are controlled to perform extension motion, the transverse partition plate can move outwards, so that the mold is automatically separated from the polyphenyl particle partition plate, the sliding connection column is matched with the sliding support column to limit the diaphragm plate when the diaphragm plate moves.

As a preferred technical scheme of the invention, the vibration mechanism comprises a vibrating rod, a vibration pressing block, a vibration telescopic rod, a vibration spring, a vibration push rod and a vibration connecting plate, wherein the inner wall of each square groove arranged on a circular groove on a transverse partition plate at the rear end of the forming underframe is provided with the vibration telescopic rod, and the top of each vibration telescopic rod is provided with the vibration pressing block; the vibrating press block is of a semicircular structure, the cross section of the vibrating press block is trapezoidal, a vibrating spring is sleeved on the outer end of the vibrating telescopic rod, the left end of the vibrating rod is located between the two vibrating press blocks, the right end of the vibrating rod is connected with the top of the vibrating push rod, and the bottom of the vibrating push rod is installed on the rear side face of the transverse partition plate located at the rear end of the forming underframe through a vibrating connecting plate; the rear end of the vibrating rod is provided with a limiting plate, the lower end face of the middle part of the vibrating connecting plate is provided with a blocking plate, when the vibrating mechanism works specifically, the vibrating mechanism can compact the mixture of the polyphenyl particle partition board after the mixture is poured into the vibrating mechanism, the mixture of the polyphenyl particle partition board is prevented from generating cavities to influence the quality of the mixture, the vibrating push rod is controlled to perform extension movement, the vibrating rod can be inserted into the mixture of the partition board, when the limiting plate at the rear end of the vibrating rod is contacted with the rear side face of the vibrating press block, the vibrating rod is located at a proper vibrating position, the phenomenon that the mixture of the partition board flows into a circular groove on the transverse partition board due to excessive extension of the vibrating rod is prevented, the vibrating press block plays a role in compacting and sealing when the vibrating rod stretches and vibrates, the phenomenon that the mixture of the vibrating rod flows into the circular groove on the transverse partition board after the, the control vibrating spear carries out the shrink motion, and when the limiting plate on the vibrating spear contacted with the barrier plate that the vibration connecting plate set up, the leading flank of vibrating spear and the leading flank of cross slab were in the coplanar, increased the production effect of partition plate, and the semicircular structure of the trapezoidal cross-section of vibration briquetting can be scraped the mixture of adhesion on the vibrating spear when the vibrating spear contracts and is got rid of.

As a preferred technical scheme of the invention, the separation mechanism comprises an isolation block, an isolation spring, a rotating plate, a normal spring and a connecting clamping groove, wherein the upper side wall and the lower side wall of an isolation groove on a transverse partition plate positioned at the rear end of a forming underframe are respectively provided with a clamping block groove, each clamping block groove arranged on the isolation groove on the transverse partition plate is connected with an isolation block in a sliding fit manner, the outer end of the isolation block is arranged on the inner wall of the clamping block groove arranged on the isolation groove on the transverse partition plate through the isolation spring, the inner side surface of the isolation block is an inclined surface, the front end of the inner side surface of each isolation block is provided with a rotating plate through a pin shaft, the normal spring is arranged between the rear side surface of the rotating plate and the inner side surface of the isolation block, the rear side of each isolation groove arranged on the transverse partition plate is uniformly distributed with a connecting clamping groove, the connecting clamping groove is arranged on the rear side, during specific work, partition mechanism cooperation division board separates the partition plate mixture, can promote the rotor plate when the division board moves backward and turn to automatically, the left end of division board can make the spacing block carry out the concertina movement, back in connecting slot is inserted to the left end when the division board, the side of division board can be blocked to the spacing block under isolation spring's restoring force effect, the initial position is replied to the rotor plate under normal spring's restoring force effect, the rotor plate can play the effect of keeping apart to the partition plate mixture.

As a preferred technical scheme of the invention, the inner side surface of the transverse partition plate positioned at the front end of the forming underframe is uniformly provided with arc-shaped bulges, and the inner side surface of the transverse partition plate positioned at the rear end of the forming underframe is uniformly provided with arc-shaped grooves.

During operation, the first step: firstly, the mixed material of the polyphenyl granule partition board is poured into the vibrating separator, the vibrating separator can perform the action of compaction and separation on the mixed material of the polyphenyl granule partition board, the position of the partition board can be adjusted through the contraction movement of the isolating multistage push rod, so that the partition board can perform the action of isolation, the distance between the transverse partition boards can be adjusted through the expansion movement of the position push rod, the size formed by the transverse partition boards, the forming underframe, the longitudinal vertical board and the left vertical board is the size of the partition board, so that the vibrating separator can process partition boards of different models, the partition boards can have required shapes through the structures of the arc-shaped bulges and the arc-shaped grooves on the inner side surfaces of the transverse partition boards, the vibrating mechanism can compact the mixed material of the polyphenyl granule partition board after the mixed material is poured into the vibrating separator, the quality of the mixed material of the polyphenyl granule partition board is prevented from being influenced by the, the vibrating bar can be inserted into the mixture of the partition board, when the limiting plate at the rear end of the vibrating bar is contacted with the rear side surface of the vibrating pressing block, the vibrating bar is positioned at a proper vibrating position to prevent the vibrating bar from extending excessively to cause the partition board mixture to flow into the circular groove on the transverse partition board, the vibrating pressing block plays a role in compacting and sealing the vibrating bar during stretching and vibrating, the vibrating bar is prevented from flowing into the circular groove on the transverse partition board during stretching and vibrating, after the partition board mixture is compacted, the vibrating bar is controlled to shrink, when the limiting plate on the vibrating bar is contacted with the barrier plate arranged on the vibrating connecting plate, the front side surface of the vibrating bar and the front side surface of the transverse partition board are positioned on the same plane, the production effect of the partition board is increased, the semi-circular structure with the trapezoidal section of the vibrating pressing block can scrape the mixture adhered on the vibrating bar when the vibrating bar shrinks, partition mechanism cooperation division board separates the partition plate mixture, the division board can promote the rotor plate when backward moving and carry out automatic steering, the left end of division board can make the spacing block carry out the concertina movement, insert back in connecting slot when the left end of division board, the side of division board can be blocked under isolation spring's restoring force effect to the spacing block, the initial position is replied to the rotor plate under the restoring force effect of normal position spring, the rotor plate can play the effect of keeping apart to the partition plate mixture, after the mixture sclerosis of polyphenyl granule partition plate, the control position push rod extends the motion, the cross slab can move to the outside, make mould and polyphenyl granule partition plate autosegregation, can realize carrying out the fashioned function of plain isolation to polyphenyl granule partition plate mixture.

The invention has the beneficial effects that:

the invention can solve the problems that when the existing polyphenyl particle partition board is produced, a partition board die needs to be manually assembled, the die is difficult to assemble and disassemble, the partition board mixture needs to be compacted manually, and the partition board is damaged due to die stripping after the partition board is hardened; the vibrating compaction and isolation molding function of the polyphenyl particle partition board mixture can be realized, and the vibrating compaction and isolation molding method has the advantages that the partition board mold does not need to be assembled, the mold automatically adjusts the size, the vibration compaction of the partition board mixture is mechanically carried out, the mold is disassembled after the partition board is hardened, the damage to the partition board is avoided, and the like;

the vibration mechanism is arranged on the vibration separation device, and can be used for compacting the mixture of the polyphenyl particle partition board after the mixture is poured into the vibration separation device, so that the influence of cavities on the quality of the mixture of the polyphenyl particle partition board is prevented;

and thirdly, the vibration separation device is provided with a separation mechanism which is matched with a separation plate to separate the partition board mixture.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of a first configuration of the present invention;

FIG. 2 is a second schematic structural view of the present invention;

FIG. 3 is a schematic view of the construction of the separator of the present invention;

FIG. 4 is a cross-sectional view of the diaphragm plate and the partition mechanism of the present invention;

FIG. 5 is a schematic view of the structure between the diaphragm and the vibrating mechanism of the present invention;

FIG. 6 is a cross sectional view of the diaphragm, the vibrating rod, the vibrating mass, the vibrating telescoping rod and the vibrating spring of the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

As shown in fig. 1 to 6, a building composite board jolt ramming isolation forming die comprises a transverse partition plate 2, a forming underframe 3, a left vertical plate 4, a longitudinal vertical plate 5 and a vibration separation device 6, wherein the vertical plate 5 is installed on the top of the right end of the forming underframe 3, the transverse partition plate 2 is evenly distributed on the front side and the rear side of the left end of the longitudinal vertical plate 5, the transverse partition plate 2 is matched with the longitudinal vertical plate 5 in a sliding friction mode, the left vertical plate 4 is in friction fit with the left end of the transverse partition plate 2, the left vertical plate 4 is installed on the top of the left end of the forming underframe 3, and the vibration separation device 6 is installed on the transverse partition plate 2.

The vibration separation device 6 comprises an isolation plate 61, an isolation multistage push rod 62, a sliding connection column 63, a sliding support column 64, a vibration mechanism 65, a separation mechanism 66, a position push rod 67 and a position connecting plate 68, wherein the isolation plate 61 is connected with the diaphragm plate 2 at the front end of the forming underframe 3 in a sliding fit manner; the upper and lower sides of the rear end of the isolation plate 61 are provided with abutting grooves, the front end of the isolation plate 61 is connected with the top of an isolation multistage push rod 62, the bottom of the isolation multistage push rod 62 is arranged on the front side surface of a transverse partition plate 2 positioned at the front end of a forming underframe 3, the outer side surface of each transverse partition plate 2 is connected with the top of a position push rod 67, the bottom of the position push rod 67 is arranged on the top of the outer end of the forming underframe 3 through a position connecting plate 68, the outer side surface of the upper end of each transverse partition plate 2 is connected with the inner end of a sliding connecting column 63, the outer end of the sliding connecting column 63 is connected with the upper end of a sliding support column 64 in a sliding fit manner, the lower end of the sliding support column 64 is arranged on the top of the forming underframe 3, circular grooves are uniformly distributed on the lower end of the transverse partition plate 2 positioned at the rear end, a vibration mechanism 65 is arranged in each circular groove on the transverse partition plate 2, isolation grooves are uniformly arranged at the upper end of the transverse partition plate 2 positioned at the rear end of the forming underframe 3, a separation mechanism 66 is arranged in each isolation groove on the transverse partition plate 2, the positions of the separation mechanisms 66 correspond to the positions of the isolation plates 61 one by one, when the vibration separation device 6 works specifically, the vibration separation device can vibrate and separate the mixture of the polyphenyl granule partition plate, the contraction motion of the isolation multistage push rods 62 can adjust the positions of the isolation plates 61, so that the isolation plates 61 can perform isolation motion, the expansion motion of the position push rods 67 can adjust the distance between the transverse partition plates 2, the partition plates 2 of different models can be processed, the size formed by the transverse partition plate 2, the forming underframe 3, the vertical plate 5 and the left vertical plate 4 is the size of the partition plate, when the mixture of the polyphenyl granule partition plate is hardened, control position push rod 67 carries out the extension motion, and diaphragm 2 can move to the outside for mould and polyphenyl granule partition plate autosegregation, sliding connection post 63 cooperatees with sliding support 64 and can carry out spacingly to diaphragm 2 when removing it.

The vibration mechanism 65 comprises a vibrating rod 651, a vibration pressing block 652, a vibration telescopic rod 653, a vibration spring 654, a vibration push rod 655 and a vibration connecting plate 656, wherein the inner wall of each square groove arranged on the circular groove on the diaphragm plate 2 at the rear end of the forming underframe 3 is provided with the vibration telescopic rod 653, and the top of each vibration telescopic rod 653 is provided with the vibration pressing block 652; the vibration pressing blocks 652 are of a semicircular structure, the section of each vibration pressing block 652 is trapezoidal, the outer end of each vibration telescopic rod 653 is sleeved with a vibration spring 654, the left end of each vibration rod 651 is located between the two vibration pressing blocks 652, the right end of each vibration rod 651 is connected with the top of each vibration push rod 655, and the bottom of each vibration push rod 655 is mounted on the rear side face of the diaphragm plate 2 located at the rear end of the forming underframe 3 through a vibration connecting plate 656; the rear end of the vibrating rod 651 is provided with a limiting plate, the lower end face of the middle part of the vibrating connecting plate 656 is provided with a blocking plate, when the vibrating mechanism 65 works specifically, the mixture of the polyphenyl granule partition board can be compacted after being poured into the vibrating mechanism, the mixture of the polyphenyl granule partition board is prevented from being hollow, the quality of the mixture is prevented from being influenced, the vibrating push rod 655 is controlled to extend, the vibrating rod 651 can be inserted into the mixture of the partition board, when the limiting plate at the rear end of the vibrating rod 651 is contacted with the rear side face of the vibrating press block 652, the vibrating rod 651 is located at a proper vibrating position, the vibrating rod 651 is prevented from extending excessively to cause the mixture of the partition board to flow into a circular groove on the transverse partition board 2, the vibrating press block 652 plays a role in compacting and sealing when the vibrating rod 651 is stretched and vibrated, the vibrating rod 651 is prevented from flowing into the circular groove on the transverse partition board 2, after the partition board mixture compaction is finished, the vibrating rod 651 is controlled to perform shrinkage movement, when a limiting plate on the vibrating rod 651 is in contact with a blocking plate arranged on the vibration connecting plate 656, the front side face of the vibrating rod 651 and the front side face of the diaphragm plate 2 are in the same plane, the production effect of the partition board is increased, and the semi-circular structure with the trapezoidal section of the vibration pressing block 652 can scrape the mixture adhered to the vibrating rod 651 when the vibrating rod 651 shrinks.

The partition mechanism 66 comprises isolating blocks 661, isolating springs 662, rotating plates 663, normal springs 664 and connecting clamping grooves 665, wherein the upper and lower side walls of the isolating grooves on the diaphragm plates 2 at the rear end of the forming underframe 3 are respectively provided with a clamping block groove, each clamping block groove arranged on the isolating grooves on the diaphragm plates 2 is internally connected with an isolating block 661 in a sliding fit mode, the outer ends of the isolating blocks 661 are arranged on the inner walls of the clamping block grooves arranged on the isolating grooves on the diaphragm plates 2 through the isolating springs 662, the inner side surfaces of the isolating blocks 661 are inclined surfaces, the front end of the inner side surface of each isolating block 661 is provided with a rotating plate 663 through a pin shaft, the normal springs are arranged between the rear side surface of the rotating plates 663 and the inner side surfaces of the isolating blocks 661, the rear side of each isolating groove 664 arranged on the diaphragm plates 2 is uniformly distributed with one connecting clamping groove 665, the connecting clamping grooves 665 are arranged on the rear side surface of the diaphragm plates 2 at the rear end of the forming underframe, during specific work, partition mechanism 66 cooperates division board 61 to separate the partition board mixture, division board 61 can promote rotation board 663 when backward moving and turn to voluntarily, division board 61's left end can make spacing block 661 carry out shrinkage movement, back in inserting connection draw-in groove 665 when the left end of division board 61, spacing block 661 can block the side of division board 61 under isolation spring 662's restoring force effect, rotation board 663 restores to the initial position under the restoring force effect of normal position spring 664, rotation board 663 can play the effect of isolation to the partition board mixture.

2 medial surfaces of the cross slab that is located 3 front ends of shaping chassis evenly be provided with the arc arch, 2 medial surfaces of the cross slab that are located 3 rear ends of shaping chassis evenly are provided with the arc recess, during concrete work, the arc arch and the arc groove structure of 2 medial surfaces of cross slab can make the partition plate have the required overall shape.

During operation, the first step: firstly, the mixed material of the polyphenyl granule partition board is poured into the vibrating separator 6, the mixed material of the polyphenyl granule partition board can be vibrated and separated, the contraction motion of the isolating multistage push rod 62 can adjust the position of the isolating plate 61, so that the isolating plate 61 can perform the isolating action, the expansion motion of the position push rod 67 can adjust the distance between the transverse partition boards 2, the size formed by the transverse partition board 2, the forming underframe 3, the vertical plate 5 and the left vertical plate 4 is the size of the partition board, so that the vibrating separator can process the partition boards of different models, the arc-shaped bulges and the arc-shaped grooves on the inner side surface of the transverse partition board 2 can enable the partition board to have the required shape, the vibrating mechanism 65 can vibrate the mixed material of the polyphenyl granule partition board after the mixed material is poured into the vibrating separator, and the mixed material of the polyphenyl granule partition board is prevented from generating cavities to influence on the quality, control vibrating push rod 655 carries out the extension motion, the vibrting spear 651 can insert in the mixture of partition plate, when the limiting plate of the rear end of vibrting spear 651 contacts with the trailing flank of vibration briquetting 652, the vibrting spear 651 is located suitable vibration position, prevent that the vibrting spear 651 from stretching out excessively to lead to the circular slot that the partition plate mixture flows to diaphragm plate 2, vibration briquetting 652 plays the sealed effect of compaction when flexible and vibration to vibrting spear 651, prevent the vibrting spear 651 from flowing to the circular slot on diaphragm plate 2 at flexible and vibrating partition plate mixture, after the partition plate mixture compaction finishes, control vibrting spear 651 carries out the shrink motion, when the limiting plate on the vibrting spear 651 contacts with the baffle that vibration connecting plate 656 setting, the leading flank of vibrting spear 651 and the leading flank of diaphragm plate 2 are in the coplanar, the production effect of partition plate has been increased, the trapezoidal cross-section semicircular structure of vibration briquetting 652 can scrape the mixture that the vibrting spear The partition mechanism 66 is matched with the partition board 61 to partition the partition board mixture, the partition board 61 can push the rotating board 663 to automatically turn when moving backwards, the left end of the partition board 61 can enable the partition block 661 to contract, after the left end of the partition board 61 is inserted into the connecting clamping groove 665, the partition block 661 can clamp the side surface of the partition board 61 under the restoring force of the isolation spring 662, the rotating board 663 returns to the initial position under the restoring force of the normal spring 664, the rotating board 663 can play a role in isolating the partition board mixture, after the mixture of the polyphenyl granule partition board is hardened, the position control push rod 67 is extended, the transverse partition board 2 can move outwards, so that the mold and the polyphenyl granule partition board are automatically separated, the function of compaction isolation molding of the polyphenyl granule partition board mixture is realized, and the problem that the partition board mold and the partition board existing in the production of the existing polyphenyl granule partition board need to be manually assembled, the partition board mold and the partition board can be, The difficult problems such as the mould disassembly is difficult, needs the manual work to carry out the compaction with the partition wall board mixture, the mould form removal can cause damage to the partition wall board after the partition wall board hardens have reached the purpose.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a building composite board plain bumper keeps apart forming die, includes cross slab (2), shaping chassis (3), left riser (4), indulges riser (5) and vibration isolation device (6), its characterized in that: a vertical plate (5) is installed on the top of the right end of the forming underframe (3), transverse partition plates (2) are uniformly distributed on the front side and the rear side of the left end of the vertical plate (5), the transverse partition plates (2) are matched with the vertical plate (5) in a sliding friction mode, the left vertical plate (4) is in friction fit with the left end of the transverse partition plates (2), the left vertical plate (4) is installed on the top of the left end of the forming underframe (3), and a vibration separation device (6) is installed on the transverse partition plates (2); wherein:

the vibration separation device (6) comprises a partition plate (61), isolation multistage push rods (62), a sliding connection column (63), a sliding support column (64), a vibration mechanism (65), a separation mechanism (66), a position push rod (67) and a position connecting plate (68), wherein the partition plate (61) is connected with a transverse partition plate (2) positioned at the front end of a forming underframe (3) in a sliding fit mode, the front end of the partition plate (61) is connected with the top of the isolation multistage push rods (62), the bottom of the isolation multistage push rods (62) is arranged on the front side face of the transverse partition plate (2) positioned at the front end of the forming underframe (3), the outer side face of each transverse partition plate (2) is connected with the top of the position push rod (67), the bottom of the position push rod (67) is arranged on the top of the outer end of the forming underframe (3) through the position connecting plate (68), the inner end of one sliding connection column (63) is connected on the outer side face of the upper end of each, the outer end of a sliding connecting column (63) is connected with the upper end of a sliding support column (64) in a sliding fit mode, the lower end of the sliding support column (64) is installed on the top of a forming underframe (3), circular grooves are uniformly distributed on the lower end of a transverse partition plate (2) at the rear end of the forming underframe (3), the left side and the right side of each circular groove on the transverse partition plate (2) are respectively provided with a square groove, a vibration mechanism (65) is installed in each circular groove on the transverse partition plate (2), an isolation groove is uniformly installed on the upper end of the transverse partition plate (2) at the rear end of the forming underframe (3), a separation mechanism (66) is installed in each isolation groove on the transverse partition plate (2), and the positions of the separation mechanisms (66) correspond to the positions of the isolation plates (61) one by one;

the vibration mechanism (65) comprises a vibrating rod (651), vibration pressing blocks (652), vibration telescopic rods (653), vibration springs (654), vibration push rods (655) and a vibration connecting plate (656), wherein the inner wall of each square groove, which is arranged on a circular groove on a transverse partition plate (2) at the rear end of the forming underframe (3), is provided with one vibration telescopic rod (653), the top of each vibration telescopic rod (653) is provided with one vibration pressing block (652), the outer end of each vibration telescopic rod (653) is sleeved with the vibration spring (654), the left end of each vibrating rod (651) is positioned between the two vibration pressing blocks (652), the right end of each vibrating rod (651) is connected with the top of the vibration push rod (655), and the bottom of each vibration push rod (655) is arranged on the rear side surface of the transverse partition plate (2) at the rear end of the forming underframe (3) through the vibration connecting plate (656);

the partition mechanism (66) comprises isolating blocks (661), isolating springs (662), rotating plates (663), a normal spring (664) and connecting clamping grooves (665), wherein the upper side wall and the lower side wall of the isolating groove on the transverse partition plate (2) positioned at the rear end of the forming underframe (3) are respectively provided with a clamping block groove, each clamping block groove arranged on the isolating groove on the transverse partition plate (2) is connected with an isolating block (661) in a sliding fit mode, the outer end of each isolating block (661) is arranged on the inner wall of the clamping block groove arranged on the isolating groove on the transverse partition plate (2) through an isolating spring (662), the front end of the inner side surface of each isolating block (661) is provided with one rotating plate (663) through a pin shaft, the normal spring (664) is arranged between the rear side surface of the rotating plates (663) and the inner side surface of the isolating blocks (661), the rear side of each isolating groove arranged on the transverse partition plate (2) is equally distributed with one connecting clamping groove (665), the connecting clamping groove (665) is arranged on the rear side face of the transverse clapboard (2) positioned at the rear end of the forming underframe (3);

the upper side and the lower side of the rear end of the isolation plate (61) are provided with abutting buckling grooves.

2. The building composite board compaction and isolation forming die as claimed in claim 1, wherein: the inner side face of the transverse partition plate (2) located at the front end of the forming underframe (3) is uniformly provided with arc-shaped protrusions, and the inner side face of the transverse partition plate (2) located at the rear end of the forming underframe (3) is uniformly provided with arc-shaped grooves.

3. The building composite board compaction and isolation forming die as claimed in claim 1, wherein: the vibrating pressing block (652) is of an annular structure, and the section of the vibrating pressing block (652) is trapezoidal.

4. The building composite board compaction and isolation forming die as claimed in claim 1, wherein: the rear end of the vibrating rod (651) is provided with a limiting plate, and the lower end face of the middle of the vibrating connecting plate (656) is provided with a blocking plate.

5. The building composite board compaction and isolation forming die as claimed in claim 1, wherein: the inner side surface of the isolation block (661) is an inclined surface.